JP5164744B2 - Communication network system and bandwidth control method for inter-base communication - Google Patents

Description

The present invention relates to a communication network system及 beauty bandwidth control method for inter-site communication.

  Many companies have multiple geographically dispersed bases, and in order to realize "inter-base communication" that communicates between arbitrary bases, a LAN (Local Area Network) built for each base is connected over a wide area to provide one An in-house network is being built.

  As a typical form of wide area connection, it is possible to realize the first form in which each base is connected by a dedicated line service of point-to-point connection and multi-point connection between bases such as IP-VPN and wide area Ethernet. And a second form using a VPN (Virtual Private Network) service network. The second mode can realize communication between bases at a lower cost and at a higher speed than the first mode. For this reason, in recent years, the transition to inter-base communication using a VPN service network has been progressing.

  In recent years, in order to comply with laws and regulations such as centralized management of information assets, internal control, and personal information protection, companies are proceeding with the consolidation of servers and storage in data centers (hereinafter referred to as center consolidation). The centralization reduces the time and effort for system operation management such as servers and storage, and the system hardware integration reduces costs.

  FIG. 1 is a configuration diagram of a communication system between bases in the prior art.

  According to FIG. 1, LANs at a plurality of bases are connected to a communication carrier network represented by a VPN service network via line connection devices. The multiple bases include, for example, a center base such as a data center and geographically dispersed regional bases that use the server and storage.

JP 2002-232461 A JP-T-2004-529546

  For enterprise systems, it is desirable to maintain the response time for accessing servers and storages below a certain time. For this reason, as described above, when center integration is performed, it is necessary to secure a wide communication band between the center base and each local base. In addition, it is necessary to ensure communication not only between the center base and each local base, but also between the local base and the local base.

  However, when the conventional VPN service network is used, the contracted communication band must be widened in all local bases due to the problem of ground identification of communication.

  First, the conventional VPN service network has a problem in that it cannot perform bandwidth control in conjunction with the ground identification result of communication. For example, it is not possible to apply different bandwidth control depending on whether user traffic originating from a certain local base goes to the local base or the center base.

  On the other hand, a telecommunications carrier needs to secure a certain bandwidth for a user regardless of the destination of user traffic. For this purpose, it is necessary to design and construct a relay transmission path in the VPN service network in consideration of the bandwidth between the bases. This construction cost is recovered by the communication cost required by the user. The communication cost generally depends on the number of connection bases and the connection bandwidth (for the VPN service network). As a result, the conventional VPN service network is inevitably expensive for a user who desires centralization, that is, a user who only needs to have a broadband communication between the center base and each local base.

Therefore, the present invention is necessary for communication between specific lines, that is, bandwidth required for communication between specific lines and communication between other lines in conjunction with the ground identification result of communication connection within the VPN service network. and a bandwidth, and an object thereof is to provide a communication network system及 beauty bandwidth control method that can provide set individually and.

According to the present invention, a communication network in which a plurality of general line connection devices accommodating general lines and one or more specific line connection devices accommodating specific lines communicate with each other via a communication carrier network. A system,
The general line connection device is a first band control means for limiting an upstream packet and / or a downstream packet with another general line connection device to the general contract bandwidth α and an uplink between the specific line connection device. Second bandwidth control means for limiting the direction packet and / or the downstream packet to a specific contract bandwidth β (α <β),
The specific line connection apparatus includes a third band control unit that limits an upstream packet and / or a downlink packet with the general line connection apparatus to a specific contract band γ.

According to another embodiment of the communication network system of the present invention,
The general line connection device transfers a packet whose transfer destination is the general line connection device to the first bandwidth control means for the packet received from the general line, and transfers a packet whose transfer destination is the specific line connection device to the second bandwidth. A transfer destination determining means for transferring to the control means;
The specific line connection device executes the third bandwidth control means for the packet to be transmitted to the communication carrier network, executes the third bandwidth control means for the packet received from the communication carrier network,
The general line connection apparatus transfers a packet whose transfer source is the general line connection apparatus to the first bandwidth control means for the packet received from the communication carrier network, and secondly transfers the packet whose transfer source is the specific line connection apparatus. It is also preferable to further include a transfer source determination means for transferring to the bandwidth control means.

According to another embodiment of the communication network system of the present invention,
The general line connection device further includes a specific line address storage means for storing a specific line address corresponding to a device or network connected to the specific line connection device via the specific line,
The transfer destination determination unit of the general line connection apparatus transfers a packet not having the specific line address as the destination address to the first band control unit, and transfers a packet having the specific line address as the destination address to the second band control unit. ,
The transfer source determination unit of the general line connection apparatus transfers a packet that does not use the specific line address as the transmission source address to the first band control unit, and transfers the packet that uses the specific line address as the transmission source address to the second band control unit. It is also preferable to transfer.

According to another embodiment of the communication network system of the present invention,
The general line connection device further includes a specific line address storage means for storing a specific line address corresponding to a device or network connected to the specific line connection device via the specific line,
The transfer destination determination unit of the general line connection apparatus transfers a packet not having the specific line address as the destination address to the first band control unit, and transfers a packet having the specific line address as the destination address to the second band control unit. ,
The specific line connection device further includes flag addition means for adding a specific flag after executing the third bandwidth control means for the packet to be transmitted to the communication carrier network,
The general line connection apparatus transfers, to the first bandwidth control means, a packet without a specific flag for the packet received from the communication carrier network, instead of the transfer source determination means, and the specific flag is added. It is also preferable to further include flag determination means for transferring the packet to the second bandwidth control means and removing the specific flag.

According to another embodiment of the communication network system of the present invention,
General line connection equipment
A transfer table in which a line connection device identifier and a line address corresponding to a device or a network connected via a line are stored in association with each other;
When the specific line connection device identifier input to the operation setting operation unit is the line connection device identifier stored in the transfer table, the line address corresponding to the identifier is acquired from the transfer table, and the line address is used as the specific line address. It is also preferable to have specific line address setting means for storing the specific line address storage means.

According to another embodiment of the communication network system of the present invention,
The general line connection device further includes flag adding means for adding a first specific flag A to a packet having a specific line address as a destination address,
The specific line connection device includes a flag adding means for adding a second specific flag B to a packet to be transmitted to the communication carrier network, and a first specific flag A for a packet received from the communication carrier network. And a flag removing means for removing the second specific flag B,
General line connection equipment
And further includes a fraudulent packet limiting means for extremely limiting or blocking the bandwidth of the received packet,
For packets received from the carrier network, the packets without the first specific flag A and the second specific flag B are transferred to the first bandwidth control means, and the packets with the specific flag B are added. A flag determination unit that transfers to the second bandwidth control unit and transfers the packet with the specific flag A added to the illegal packet restriction unit;
It is also preferable to further include flag removing means for removing the first specific flag A and the second specific flag B of the packet.

According to another embodiment of the communication network system of the present invention,
General line connection equipment
Specific line carrier MAC address storage means for preliminarily storing a carrier MAC address for identifying the specific line connection device;
The transfer destination determination unit transfers a packet transferred with the specific line carrier MAC address as the destination to the second band control unit, and transfers a packet transferred without using the specific line carrier MAC address as the destination to the first band control unit. Forward,
The transfer source determination unit transfers a packet having the transmission source address as the specific line carrier MAC address to the second band control unit, and transfers a packet not having the transmission source address as the specific line carrier MAC address to the first band control unit. It is also preferable to forward to.

  According to another embodiment of the communication network system of the present invention, the first bandwidth control means and the second bandwidth control means in the general line connection device are either the general contract bandwidth α or the specific contract bandwidth β. It is also preferable to further include a priority control means for controlling to preferentially secure the above.

  According to another embodiment of the communication network system of the present invention, the specific contract bandwidth β is preferably a physical interface bandwidth of a general line.

According to another embodiment of the communication network system of the present invention,
The carrier network has a first communication network and a second communication network,
General line connection devices communicate with each other via a first communication network, and general line connection devices and a specific line connection device communicate with each other via a second communication network. Is also preferable.

According to the present invention, a communication network in which a plurality of general line connection devices accommodating general lines and one or more specific line connection devices accommodating specific lines communicate with each other via a communication carrier network. A bandwidth control method in a system,
The general line connection device restricts communication with other general line connection devices to the general contract bandwidth α and restricts communication with the specific line connection device to the specific contract bandwidth β (α <β),
The specific line connection device is characterized in that communication with the general line connection device is limited to a specific contract bandwidth γ.

According to the communication network system及 beauty bandwidth control method of the present invention, in conjunction with the ground identification result of the connection of the communication within the VPN service network, a particular ground, i.e., the bandwidth required for communication between a specific line And the bandwidth required for communication between other lines can be individually set and provided.

  Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to the drawings.

  FIG. 2 is an explanatory diagram of bandwidth control in the present invention.

  In the communication network system of the present invention, a plurality of general line connection devices 11 accommodating general lines and one or more specific line connection devices 12 accommodating specific lines are mutually connected via the communication carrier network 2. To communicate. The user can select a general line or a specific line for each site, and can set different bandwidth control and contract bandwidth according to the characteristics of the communication traffic.

The general line connection device 11
(1) Restrict communication with other general line connection device 11 to “general contract bandwidth α”.
(2) Restrict communication with the specific line connection device 12 to “specific contract bandwidth β (α <β)”.
The specific line connection device 12
(3) The communication with the general line connection device 11 is limited to the “specific contract bandwidth γ”.

  The “specific contract bandwidth β” in the general line connection device may be a physical interface bandwidth of a general line. For example, the physical interface band includes 32 Mbps, 64 Mbps, 100 Mbps, and the like, and the “specified contract band β” may be associated with the interface band.

  Here, “contract bandwidth” will be described. According to a communication network system targeted by the present invention, a center base for concentrating data resources and a local base using the data resources are connected to a communication carrier network. Conventionally, the line cost for a telecommunications carrier network has been determined based on the line bandwidth to which each base (center base and local base) is connected. As a user, the line cost is borne based on the number (number) of bases connected to the communication carrier network and the bandwidth of each base. In this case, the communication carrier network does not consider whether the center base is connected or the local base is connected.

  On the other hand, according to the present invention, regarding “contract bandwidth”, a “general line” to which a local base is connected and a “specific line” to which a center base is connected are distinguished. The general line connection device 11 connected to the general line separately sets the “general contract bandwidth α” between the other general line connection devices 11 and the “specific contract bandwidth β” between the specific line connection devices 12. You can contract with Further, the specific line connection device 12 connected to the specific line makes a contract with the general line connection device 11 in the “specific contract bandwidth γ”. As a result, the user can borrow a communication carrier network with various configurations according to the communication amount between the center base and each local base and the communication amount between the local base and the local base.

  FIG. 3 is a basic functional configuration diagram of the general line connection device and the specific line connection device in the present invention.

  The general line connection device 11 includes a communication carrier network side port 112 and a general line side port 113, and a first band control unit 1101 and a second band control from the general line to the communication carrier network. Unit 1102 and transfer destination determination unit 1103, and includes a first band control unit 1111, a second band control unit 1112, and a transfer source determination unit 1113 from the communication carrier network toward the general line. . These functional components can be realized by executing a program that causes a computer mounted on the line connection device to function.

  When the transfer destination is a general line connection device for the packet received from the general line, the transfer destination determination unit 1103 transfers the packet to the first bandwidth control unit 1101, and the transfer destination is the specific line connection device. If there is, the packet is transferred to the second bandwidth controller 1102. The first bandwidth control unit 1101 limits the transferred packet to “general contracted bandwidth α”, and the second bandwidth control unit 1102 limits the transferred packet to “specific contracted bandwidth β”. To do.

  When the transfer source is a general line connection device for the packet received from the carrier network, the transfer source determination unit 1113 transfers the packet to the first bandwidth control unit 1111 and the transfer source is connected to the specific line. If it is a device, the packet is transferred to the second bandwidth controller 1112. The first bandwidth control unit 1111 restricts the transferred packet to “general contract bandwidth α”, and the second bandwidth control unit 1112 restricts the transferred packet to “specific contract bandwidth β”. To do.

  Here, the first bandwidth control units 1101 and 1111 and the second bandwidth control units 1102 and 1112 in the general line connection apparatus 11 preferentially use either the general contract bandwidth α or the specific contract bandwidth β. You may control to ensure. If the specific contract bandwidth β is selected as the priority control, the communication between the general line connection device and the specific line connection device is given priority, and if the general contract bandwidth α is selected, the general line connection device-general line connection measure Communication between them is given priority.

  The specific line connection device 12 has a telecommunications carrier network side port 122 and a specific line side port 123, and has a third bandwidth control unit 1201 from the specific line to the telecommunications carrier network. A third bandwidth control unit 1202 is provided from the network toward the specific line. The third bandwidth control units 1201 and 1202 limit the transferred packets to “specific contract bandwidth γ”.

  FIG. 4 is a functional configuration diagram of the general / specific line connection apparatus according to the first embodiment of the present invention.

  According to FIG. 4, compared with FIG. 3, the general line connection device 11 further includes a specific line address storage unit 1104, a specific line address setting unit 114, and a forwarding table 115.

  The specific line address storage unit 1104 of the general line connection device 11 stores a specific line address connected to the specific line connection device 12 via the specific line. This specific line address is referred to by the transfer destination determination unit 1103. The transfer destination determination unit 1103 transfers a packet that does not have the specific line address as the destination address to the first band control unit 1101, and transfers a packet that uses the specific line address as the destination address to the second band control unit 1102. Thereby, different bandwidth control can be applied depending on whether the destination of the packet is a general line connection device or a specific line connection device.

  As another embodiment, the general line connection device 11 may further include a specific line address setting unit 114 and a forwarding table 115.

The transfer table 115 stores a line connection device identifier and a line address corresponding to a device or a network connected via the line in association with each other. The line connection device identifier is a value for uniquely identifying the line connection device within the communication carrier network, and includes an MPLS label value, a MAC-in-MAC carrier MAC address, and the like.

  The specific line address setting unit 114 receives the specific line connection device identifier from the operator of the communication carrier by the operation setting operation unit 118. For example, when the specific line connection device identifier β is input, a destination address corresponding to the line connection device identifier stored in the transfer table 115 is searched. According to Table 1 described above, the destination addresses CCC and DDD are retrieved corresponding to the line connection device identifier β. These line addresses corresponding to the identifier β are stored in the specific line address storage unit 1104 as a specific line address.

  FIG. 5 is a functional configuration diagram of the general / specific line connection apparatus according to the second embodiment of the present invention.

  According to FIG. 5, compared to FIG. 4, the general line connection device 11 further includes a flag determination unit 1114 and a flag removal unit 1115 instead of the transfer source determination unit. The specific line connection device 12 further includes a flag adding unit 1203.

  As a method of transmitting flag information, IPv4 ToS (Type of Service) / IPv6 TC (Traffic Class) field, Ethernet (registered trademark) CoS (Class of Service) field, MPLS (Multi Protocol Label Switching) A method of putting a specific value in an Exp (Experimental) field or the like can be considered.

  The flag adding unit 1203 of the specific line connection device 12 adds a specific flag to the packet output from the third band control unit 1201 to be transmitted to the communication carrier network 2. The specific flag means that the packet is transferred from the specific line connection device to the general line connection device. The packet to which the specific flag is added is transmitted to the general line connection device 11 via the communication carrier network 2.

  The flag determination unit 1114 of the general line connection device 11 is provided in place of the transfer source determination unit 1113 of FIG. The flag determination unit 1114 determines whether or not a specific flag is added to the packet received from the communication carrier network 2. Packets to which no specific flag is added are transferred to the first bandwidth control unit 1111, and packets to which the specific flag is added are transferred to the second bandwidth control unit 1112. When the packet is output from the flag determination unit 1114, the specific flag is removed by the flag removal unit 1115.

  FIG. 6 is a functional configuration diagram of a general / specific line connection apparatus according to the third embodiment of the present invention.

  According to FIG. 6, compared with FIG. 5, the general line connection device 11 further includes a flag A addition unit 1105 and an illegal packet restriction unit 1116. The specific line connection device 12 further includes a flag B adding unit 1204 and a flag removing unit 1205.

  The flag A adding unit 1105 of the general line connection device 11 adds the first specific flag A to the packet having the specific line address as the destination address. The first specific flag A means that the packet is directed from the general line connection device 11 to the specific line connection device 12.

  On the other hand, the flag B adding unit 1204 of the specific line connection device 12 adds the second specific flag B to the packet to be transmitted to the communication carrier network. The second specific flag B means that the packet is directed from the specific line connection device 12 to the general line connection device 11. The flag removal unit 1205 of the specific line connection device 12 removes the first specific flag A and the second specific flag B from the packet received from the communication carrier network.

  The general line connection device 11 further includes an illegal packet limiter 1116 in parallel with the first bandwidth controller 1111 and the second bandwidth controller 1112. The illegal packet limiter 1116 has a function of extremely limiting or blocking the bandwidth of the transferred packet.

The flag determination unit 1114 of the general line connection device 11 sorts the packets received from the communication carrier network 2 as follows.
(1) Packet to which specific flags A and B are not added → first bandwidth control unit 1111
(2) Packet to which the specific flag B is added → second bandwidth control unit 1112
(3) Packet to which the specific flag A is added-> Illegal packet restriction unit 1116
Here, the packet to which the specific flag A is added is originally transferred to the specific line connection device 12. The fact that the general line connection device 11 has received this packet determines that an illegal packet has arrived.

  FIG. 7 is a functional configuration diagram of a general / specific line connection apparatus according to the fourth embodiment of the present invention.

  According to FIG. 7, the “MAC-in-MAC” technology is applied. According to FIG. 7, compared to FIG. 3, the general line connection device 11 further includes a carrier MAC address storage unit 116, a carrier header addition unit 1106, and a carrier header removal unit 1117. The specific line connection device 12 further includes a carrier header adding unit 1206 and a carrier header removing unit 1207.

  The “MAC-in-MAC” technology is a wide-area Ethernet technology that encapsulates a MAC frame in a MAC frame and is also standardized by IEEE 802.1ah. Conventionally, the core switch in the carrier network needs to learn the MAC addresses of all users, and the number of MAC addresses to be registered in the address table has become enormous. With the “MAC-in-MAC” technology, the core switch in the carrier network only needs to learn the carrier MAC address of the switch located at the edge of the network.

  The carrier MAC address storage unit 116 stores in advance a carrier MAC address for identifying the specific line connection device 12.

  The transfer destination determination unit 1103 transfers the packet transferred with the specific line carrier MAC address as the destination to the second band control unit 1102, and performs the first band control on the packet transferred without using the specific line carrier MAC address as the destination. Forward to the unit 1101.

  The carrier header adding unit 1106 of the general line connection apparatus 11 adds the carrier MAC header destined for the general line connection apparatus to the packet output from the first band control unit 1101 and transmits the packet, and performs second band control. The packet output from the unit 1102 is added with a carrier MAC header destined for the specific line connection device and transmitted.

  The transfer source determination unit 1113 transfers a packet having the transmission source address as the specific line carrier MAC address to the second band control unit 1112, and transfers a packet not having the transmission source address as the specific line carrier MAC address to the first band. Transfer to the control unit 1111. For the packet output from the transfer source determination unit 1113, the carrier MAC header is removed by the carrier header removal unit 1117.

  The carrier header adding unit 1206 of the specific line connection device 12 sets the source address as the specific line carrier MAC address in the packet output from the third bandwidth control unit 1201 for the packet to be transmitted to the communication carrier network. To be transmitted with a carrier MAC header added. Further, the carrier header removal unit 1207 removes the carrier MAC header from the packet received from the communication carrier network and transfers the packet to the third bandwidth control unit 1202.

  FIG. 8 is a system configuration diagram for controlling uplink packets and downlink packets with different contract bandwidths.

  According to FIG. 8A, the general line connection device 11 restricts the general contract bandwidth α to all uplink packets from the general line to the communication carrier network. Also, the general line connection device 11 restricts the packet received from the other general line connection device to the general contract bandwidth α for the downlink packet from the communication carrier network to the general line, and the specific line The packet received from the connection device 12 is limited to the specific contract bandwidth β. In this case, the specific contract bandwidth β can be determined according to the data amount of the downlink packet from the specific line connection device 12 to the general line connection device 11.

  According to FIG. 8 (b), the general line connection device 11 uses the general contract bandwidth for the packet whose destination is another general line connection device for the uplink packet from the general line to the communication carrier network. It is limited to α, and a packet whose destination is a specific line connection device is limited to a specific contract bandwidth β. Further, the general line connection device 11 restricts the general contract bandwidth α to all downlink packets from the communication carrier network to the general line. In this case, the specific contract bandwidth β can be determined according to the data amount of the uplink packet from the general line connection device 11 to the specific line connection device 12.

  FIG. 9 is a configuration diagram of a communication network system in which the communication carrier network includes two communication networks.

  According to FIG. 9, the communication carrier network has a first communication network and a second communication network, and communication between the general line connection device and the specific line connection device is performed via the first communication network. The general line connection devices are configured to communicate with each other via the second communication network. For example, the first communication network may be a point-to-point connection public communication network, and the second communication network may be a multipoint connection wide area Ethernet network.

  FIG. 10 is a first functional configuration diagram of a line connection device that integrally includes a general line connection function and a specific line connection function. The line connection device of FIG. 10 is provided as an edge device for a communication carrier network, and can connect both a general line and a specific line.

  Here, according to FIG. 10, the line connection device 1 further includes a return unit 117 addressed to the own device. The own device address folding unit 117 stores, for each general line and specific line, an address for identifying a device or network connected via the line. Then, the own device address folding unit 117, when the destination address of the uplink packet to be transmitted to the communication carrier network matches the address connected via the general line or the specific line in the own device, Return to the line connection function or the specific line connection function as a downlink packet received from the carrier network. Thereby, since the packet can be turned back in the line connection device 1, the network load of the communication carrier network 2 is not affected, and the packet transfer time is shortened.

  FIG. 11 is a second functional configuration diagram of the line connection device that integrally includes the general line connection function and the specific line connection function. The line connection device of FIG. 11 takes in a communication carrier network as a switching unit into the line connection device and collects a plurality of general lines and specific lines.

As described above in detail, according to the communication network system及 beauty bandwidth control method of the present invention, distinguishing a specific line connecting device which center hub is connected, and a general line connecting device local offices are connected However, by setting different bandwidth control and contract bandwidth, it becomes possible to secure a wide bandwidth between the center base and each local base, and it is possible to promote user centralization.

  Specifically, according to the present invention, it is possible for a communication carrier and a user to make a contract for securing a sufficient band for communication between a center base and a local base. On the other hand, the user's center base generally tends to be located in a specific area. Therefore, according to the present invention, the telecommunications carrier can improve the efficiency of capital investment by improving the multiplexing rate in the relay transmission path of the VPN service network going to a specific area and the line capacity of the specific line connection device. Can be realized. The cost of communication is reduced by increasing the efficiency of capital investment, and in return, it is expected that a user who desires centralization can enjoy a cheap communication cost.

  In the various embodiments of the present invention described above, various changes, modifications, and omissions in the scope of the technical idea and the viewpoint of the present invention can be easily made by those skilled in the art. The above description is merely an example, and is not intended to be restrictive. The invention is limited only as defined in the following claims and the equivalents thereto.

It is a block diagram of the communication system between bases in a prior art. It is explanatory drawing of the band control in this invention. It is a basic functional block diagram of the general / specific line connection device in the present invention. It is a functional block diagram of the general / specific line connection apparatus based on 1st Embodiment in this invention. It is a functional block diagram of the general / specific line connection apparatus based on 2nd Embodiment in this invention. It is a functional block diagram of the general / specific line connection apparatus based on 3rd Embodiment in this invention. It is a functional block diagram of the general / specific line connection apparatus based on 4th Embodiment in this invention. It is a system block diagram which controls an upstream packet and a downstream packet with a different contract bandwidth. 1 is a configuration diagram of a communication network system in which a communication carrier network includes two communication networks. It is a 1st functional block diagram of the line connection apparatus which contains a general line connection function and a specific line connection function integrally. It is a 2nd function block diagram of the line connection apparatus which integrally contains a general line connection function and a specific line connection function.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Line connection apparatus 100 Switching part 11 General line connection apparatus 1101,1111 1st band control part 1102,1112 2nd band control part 1103 Transfer destination determination part 1104 Specific line address memory | storage part 1105 Flag A addition part 1106 Carrier header addition Unit 1113 transfer source determination unit 1114 flag determination unit 1115 flag removal unit 1116 illegal packet restriction unit 1117 carrier header removal unit 112 carrier network side port 113 general line side port 114 specific line address setting unit 115 transfer table 116 carrier MAC address storage Unit 117 Call-back unit for own device 118 Operation setting operation unit 12 Specific line connection device 1201 and 1202 Third bandwidth control unit 1203 Flag addition unit 1204 Flag B addition unit 1205 Flag removal unit 1206 Carrier header addition unit 1207 Carrier header removal unit 2 Carrier network

Claims (11)

A communication network system in which a plurality of general line connection devices accommodating general lines and one or more specific line connection devices accommodating specific lines communicate with each other via a communication carrier network,
The general line connection device is provided between the specific line connection device and a first bandwidth control unit that restricts an upstream packet and / or a downlink packet with another general line connection device to a general contract bandwidth α. Second bandwidth control means for limiting the upstream packet and / or the downstream packet to a specific contract bandwidth β (α <β),
The specific line connection device includes a third bandwidth control means for limiting an upstream packet and / or a downward packet with the general line connection device to a specific contract bandwidth γ. system. For the packet received from the general line, the general line connection device transfers a packet whose transfer destination is the general line connection device to the first bandwidth control means, and secondly transfers a packet whose transfer destination is the specific line connection device. Further comprising a transfer destination determination means for transferring to the bandwidth control means.
The specific line connection device executes third bandwidth control means for a packet to be transmitted to the communication carrier network, and executes third bandwidth control means for a packet received from the communication carrier network. And
The general line connection device transfers, to the first bandwidth control means, a packet whose transfer source is a general line connection device, and a packet whose transfer source is a specific line connection device. 2. The communication network system according to claim 1, further comprising transfer source determination means for transferring to the second bandwidth control means. The general line connection device further includes a specific line address storage means for storing a specific line address corresponding to a device or a network connected to the specific line connection device via the specific line,
The transfer destination determination unit of the general line connection apparatus transfers a packet not having a specific line address as a destination address to a first band control unit, and a packet having the specific line address as a destination address is a second band control unit. Forward to
The transfer source determination unit of the general line connection apparatus transfers a packet that does not have a specific line address as a transmission source address to a first band control unit, and a packet that uses the specific line address as a transmission source address in a second band 3. The communication network system according to claim 2, wherein the communication network system is transferred to a control means. The general line connection device further includes a specific line address storage means for storing a specific line address corresponding to a device or a network connected to the specific line connection device via the specific line,
The transfer destination determination unit of the general line connection apparatus transfers a packet not having a specific line address as a destination address to a first band control unit, and a packet having the specific line address as a destination address is a second band control unit. Forward to
The specific line connection device further includes flag adding means for adding a specific flag to the packet to be transmitted to the communication carrier network after executing the third bandwidth control means,
The general line connection apparatus transfers, to the first bandwidth control unit, a packet to which the specific flag is not added with respect to the packet received from the communication carrier network, instead of the transfer source determination unit, and the specific flag 3. The communication network system according to claim 2, further comprising flag determination means for transferring the packet to which the packet is added to the second bandwidth control means and removing the specific flag. The general line connection device is:
A transfer table in which a line connection device identifier and a line address corresponding to a device or a network connected via a line are stored in association with each other;
When the specific line connection device identifier input to the operation setting operation unit is the line connection device identifier stored in the transfer table, the line address corresponding to the identifier is acquired from the transfer table, and the line address is acquired from the specific line. 5. The communication network system according to claim 3, further comprising specific line address setting means for storing the specific line address storage means as an address. The general line connection device further includes flag adding means for adding a first specific flag A to a packet having the specific line address as a destination address,
The specific line connection device includes a flag adding unit for adding a second specific flag B to a packet to be transmitted to the communication carrier network, and a first for a packet received from the communication carrier network. Flag removing means for removing the specific flag A and the second specific flag B;
The general line connection device is:
And further includes a fraudulent packet limiting means for extremely limiting or blocking the bandwidth of the received packet,
For packets received from the carrier network, packets without the first specific flag A and second specific flag B are transferred to the first bandwidth control means, and the specific flag B is added. A flag determination means for transferring the packet to the second bandwidth control means, and transferring the packet to which the specific flag A is added to the illegal packet restriction means;
Communication network system according to claim 3 or 4, characterized by further comprising a flag removal means for removing the first specific flag A and the second specific flag B of the packet. The general line connection device is:
Specific line carrier MAC address storage means for storing in advance a carrier MAC address for identifying the specific line connection device;
The transfer destination determination unit transfers a packet transferred with the specific line carrier MAC address as a destination to a second band control unit, and transfers a packet transferred without setting the specific line carrier MAC address as a destination to a first band. Transfer to control means,
The transfer source determination unit transfers a packet having a transmission source address as the specific line carrier MAC address to a second bandwidth control unit, and a packet not having the transmission source address as the specific line carrier MAC address 3. The communication network system according to claim 2, wherein the communication network system transfers to a bandwidth control means.   The first bandwidth control means and the second bandwidth control means in the general line connection device control to preferentially secure either one of the general contract bandwidth α and the specific contract bandwidth β. The communication network system according to claim 1, further comprising:   The communication network system according to any one of claims 1 to 8, wherein the specific contract bandwidth β is a physical interface bandwidth of the general line. The carrier network includes a first communication network and a second communication network,
The general line connection devices communicate with each other via a first communication network, and the general line connection device and the specific line connection device communicate with each other via a second communication network. The communication network system according to any one of claims 1 to 9 , wherein A bandwidth control method in a communication network system in which a plurality of general line connection devices accommodating general lines and one or more specific line connection devices accommodating specific lines communicate with each other via a communication carrier network. There,
The general line connection device restricts communication with other general line connection devices to a general contract bandwidth α and restricts communication with the specific line connection device to a specific contract bandwidth β (α <β). And
The specific line connection apparatus limits a communication with the general line connection apparatus to a specific contract band γ.

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